CouchDB access as a rest service seems insecure. Anyone can hit the database and delete/add documents once it is exposed.
What strategies are there to secure the CouchDB?
Have you read CouchDB documentation http://couchdb.apache.org/docs/overview.html? It has a "Security and Validation" section that addresses some of your concerns.
The only thing which really works currently security wise is something like this in your CouchDB configuration.
This puts basic HTTP auth on all of CouchDB. Even this is not well supportet in client libraries. For python e.g. you need a patched library.
The second approach is to put a proxy in front of CouchDB and let the proxy do the authentication and authorization work. Due to CouchDB's RESTful design this is quite easy.
All other approaches must be considered up to now highly experimental.
This may be a little different from your original question. If your couchdb is only a back-end store for a full server app, you can make a special account for the server app to use and require those credentials for access to couchdb.
Using rewrites is not optional. You need a vhosts config that forces requests to your domain through your rewrites.
Rewrite routes */_all_docs and /*/_design/* to a 404 page. Otherwise users can list every document or get your whole app.
Rewrite generic object access, ie /dbname/:id to a show that can deny access if the user is not allowed to see the document. Unfortunately there is no equivalent workaround for doc-based access control of attachments.
We used haproxy to filter GET requests on _users. There is no legit reason for someone from outside to get a user record or list all your users. We want users to be able to register so we need write access. Currently couch cannot block read access to a db and simultaneously allow writes. It's a bug. Filtering with something like haproxy is our best workaround for now.
Use your own database to keep contact information that is in addition to what is provided by _users. This allows more control over access.
validate_doc_update should carefully reject any writes that should not be allowed.
In every case you need to imagine what someone who understood the system could do to subvert it and lock down those avenues of attack.
A lot has changed since 2009, so I'm going to throw an answer in here, and here's the page on the wiki I'm drawing from: http://wiki.apache.org/couchdb/Security_Features_Overview
CouchDB has a _users database that serves the purpose of defining users, here's the gist straight from the wiki: An anonymous user can only create a new document. An authenticated user can only update their own document. A server or database admin can access and update all documents.
Only server or database admins can create design documents and access views and _all_docs and _changes.
Then for any given database you can define permissions by name or by role. The way authentication is implemented is through a _sessions Database. Sending a valid username and password to the _session DB returns an authentication cookie. This is one of several option for CouchDB Authentication. There's a few more options detailed in these two places:
http://blog.couchbase.com/what%E2%80%99s-new-couchdb-10-%E2%80%94-part-4-security%E2%80%99n-stuff-users-authentication-authorisation-and-permissions - this one is a little old 1.0 was a few months back, we're on 1.2 as of today. But it's still very well outlined.
http://guide.couchdb.org/draft/security.html - and that's from the "definitive guide"
Also, depending on which hosting service you might be using, you'll have the option to restrict access to couch over SSL.
Between Node, Couch, and a variety of other technologies that effectively scale horizontally (adding more servers) there's an interesting kind of pressure or incentive being put on developers to make applications that scale well in that manner. But that's a separate issue all together.
As of February 2013 (and CouchDB 1.2) the security model of CouchDB seems not flexible enough for me. While sticking with it wouldn't be bad and could save you a lot of time if you don't care about security too much, that's not applicable if you're going into production for real-world users.
In the latter case you should go with a separate authentication middleware. This gives a possibility to implement custom authentication relatively easy. Be it OAuth, Cookies or SSL, you'll have full control over it and authentication agains 3rd-party services (or your own proprietary mechanisms) seems relatively straightforward. Speaking of security, I would also care about DoS attacks and it it seems you won't be able to restrict amount of requests to CouchDB by means of CouchDB itself.
You also will need your own tier because of no clear support for per-document authorisation (see this for details). Perfect example is maintaining a mobile application with a lot of users who don't share data between each other. TouchDB is perfect fit for this, but then you'll probably won't create a separate database for every user on backend with CouchDB, because it's not perfectly scalable. With a separate middleware you could check for a special field in a document which identifies the user to which this document belongs, or employ any other sort of ACL you'd like.
I wouldn't think about any performance issues in a real-world application before security problems go unsolved. Thus even deploying nginx to rewrite URLs is much better than deploying fenceless CouchDB on a public server. And besides, performance hit with nginx will be negligible.
CouchDB does cookies, SSL, oauth, and multi-users just fine:
Here's some actual code in python:
Request the cookie: url encoded above and below, of course
You have to put the credentials twice to get started with the first cookie Both in the Server() constructor as well as the _session POST body
Now you have received a cookie, extract it
Now, exit python and restart
Next, Request a server object, but without the username and password this time
Yay, no password, try to access the database:
Optionally set the "persistent" cookie option on the server side to make the cookie last longer.